#!/usr/bin/env python3
# -*- coding: utf-8 -*-

"""
**Project Name:**      MakeHuman

**Product Home Page:** http://www.makehumancommunity.org/

**Github Code Home Page:**    https://github.com/makehumancommunity/

**Authors:**           Glynn Clements, Jonas Hauquier

**Copyright(c):**      MakeHuman Team 2001-2020

**Licensing:**         AGPL3

    This file is part of MakeHuman Community (www.makehumancommunity.org).

    This program is free software: you can redistribute it and/or modify
    it under the terms of the GNU Affero General Public License as
    published by the Free Software Foundation, either version 3 of the
    License, or (at your option) any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU Affero General Public License for more details.

    You should have received a copy of the GNU Affero General Public License
    along with this program.  If not, see <http://www.gnu.org/licenses/>.


Abstract
--------

Main application GUI component.
"""

import sys
import os
import importlib.util

from core import G
import mh
from progress import Progress
import files3d
import gui3d
import geometry3d
import animation3d
import human
import skeleton
import guifiles
import managed_file
import algos3d
import gui
import language
import log
import contextlib

from mhversion import MHVersion

@contextlib.contextmanager
def outFile(path):
    path = mh.getPath(path)
    tmppath = path + '.tmp'
    try:
        with open(tmppath, 'w', encoding="utf-8") as f:
            yield f
        if os.path.exists(path):
            os.remove(path)
        os.rename(tmppath, path)
    except:
        if os.path.exists(tmppath):
            os.remove(tmppath)
        log.error('unable to save file %s', path, exc_info=True)

@contextlib.contextmanager
def inFile(path):
    try:
        path = mh.getPath(path)
        if not os.path.isfile(path):
            yield []
            return
        with open(path, 'r', encoding="utf-8") as f:
            yield f
    except:
        log.error('Failed to load file %s', path, exc_info=True)

class PluginCheckBox(gui.CheckBox):

    def __init__(self, module):

        super(PluginCheckBox, self).__init__(module, module not in gui3d.app.getSetting('excludePlugins'))
        self.module = module

    def onClicked(self, event):
        if self.selected:
            excludes = gui3d.app.getSetting('excludePlugins')
            excludes.remove(self.module)
            gui3d.app.setSetting('excludePlugins', excludes)
        else:
            excludes = gui3d.app.getSetting('excludePlugins')
            excludes.append(self.module)
            gui3d.app.setSetting('excludePlugins', excludes)

        gui3d.app.saveSettings()

class PluginsTaskView(gui3d.TaskView):

    def __init__(self, category):
        gui3d.TaskView.__init__(self, category, 'Plugins')

        self.scroll = self.addTopWidget(gui.VScrollArea())
        self.pluginsBox = gui.GroupBox('Plugins')
        self.pluginsBox.setSizePolicy(
            gui.SizePolicy.MinimumExpanding,
            gui.SizePolicy.MinimumExpanding)
        self.scroll.setWidget(self.pluginsBox)

        for module in sorted(gui3d.app.modules):
            if module not in gui3d.app.getSetting('activeUserPlugins'):
                self.pluginsBox.addWidget(PluginCheckBox(module))

class SymmetryAction(gui3d.Action):
    def __init__(self, human, direction):
        super(SymmetryAction, self).__init__('Apply symmetry %s' % ("left" if direction == 'l' else "right"))
        self.human = human
        self.direction = direction
        self.before = [(m.fullName, m.getValue()) for m in human.modifiers]

    def do(self):
        if self.direction == 'r':
            self.human.applySymmetryRight()
        else:
            self.human.applySymmetryLeft()
        self.human.applyAllTargets()
        mh.redraw()
        return True

    def undo(self):
        for (modifierName, value) in self.before:
            self.human.getModifier(modifierName).setValue(value)
        self.human.applyAllTargets()
        mh.redraw()
        return True


class MHApplication(gui3d.Application, mh.Application):
    def __init__(self):
        if G.app is not None:
            raise RuntimeError('MHApplication is a singleton')
        G.app = self
        gui3d.Application.__init__(self)
        mh.Application.__init__(self)

        self._default_shortcuts = {
            # Actions
            'undo':         (mh.Modifiers.CTRL, mh.Keys.z),
            'redo':         (mh.Modifiers.CTRL, mh.Keys.y),
            'modelling':    (mh.Modifiers.CTRL, mh.Keys.m),
            'save':         (mh.Modifiers.CTRL, mh.Keys.s),
            'load':         (mh.Modifiers.CTRL, mh.Keys.l),
            'export':       (mh.Modifiers.CTRL, mh.Keys.e),
            'rendering':    (mh.Modifiers.CTRL, mh.Keys.r),
            'help':         (mh.Modifiers.CTRL, mh.Keys.h),
            'exit':         (mh.Modifiers.CTRL, mh.Keys.q),
            'stereo':       (mh.Modifiers.CTRL, mh.Keys.w),
            'wireframe':    (mh.Modifiers.CTRL, mh.Keys.f),
            'qexport':      (mh.Modifiers.ALT, mh.Keys.e),
            'smooth':       (mh.Modifiers.ALT, mh.Keys.s),
            'grab':         (mh.Modifiers.ALT, mh.Keys.g),
            'profiling':    (mh.Modifiers.ALT, mh.Keys.p),
            # Camera navigation
            'rotateD':      (0, mh.Keys.N2),
            'rotateL':      (0, mh.Keys.N4),
            'rotateR':      (0, mh.Keys.N6),
            'rotateU':      (0, mh.Keys.N8),
            'panU':         (0, mh.Keys.UP),
            'panD':         (0, mh.Keys.DOWN),
            'panR':         (0, mh.Keys.RIGHT),
            'panL':         (0, mh.Keys.LEFT),
            'zoomIn':       (0, mh.Keys.PLUS),
            'zoomOut':      (0, mh.Keys.MINUS),
            'front':        (0, mh.Keys.N1),
            'right':        (0, mh.Keys.N3),
            'top':          (0, mh.Keys.N7),
            'back':         (mh.Modifiers.CTRL, mh.Keys.N1),
            'left':         (mh.Modifiers.CTRL, mh.Keys.N3),
            'bottom':       (mh.Modifiers.CTRL, mh.Keys.N7),
            'resetCam':     (0, mh.Keys.PERIOD),
            # Version check
            '_versionSentinel': (0, 0x87654321)
        }

        self.shortcuts = dict(self._default_shortcuts)

        self.mouseActions = {
            (0, mh.Buttons.LEFT_MASK): self.mouseRotate,
            (0, mh.Buttons.RIGHT_MASK): self.mouseZoom,
            (0, mh.Buttons.MIDDLE_MASK): self.mouseTranslate,
            (mh.Modifiers.CTRL, mh.Buttons.RIGHT_MASK): self.mouseFocus
        }

        self._undeclared_settings = dict()

        if mh.isRelease():
            self._default_settings = {
                'realtimeUpdates': True,
                'realtimeFitting': True,
                'sliderImages': True,
                'excludePlugins': [
                    "7_data",
                    "7_example",
                    "7_material_editor",
                    "7_profile",
                    "7_scene_editor",
                    "7_scripting",
                    "7_shell",
                    "7_targets",
                    "7_save_targets"
                ],
                'activeUserPlugins': [],
                'rtl': False,
                'invertMouseWheel': False,
                'lowspeed': 1,
                'preloadTargets': True,
                'cameraAutoZoom': False,
                'language': 'english',
                'highspeed': 5,
                'realtimeNormalUpdates': False,
                'units': 'metric',
                'real_weight': False,
                'guiTheme': 'makehuman',
                'sliderEditWidgetVisibility': False,
                'restoreWindowSize': True,
                'windowGeometry': '',
                'useHDPI': False,
                'noShaders': False,
                'noSampleBuffers': False,
                'tagFilterMode': 'OR',
                'useNameTags': False,
                'tagCount': 5,
                'makehumanTags': ['makehuman™'],
                'keepCustomValues': False
            }
        else:

            # For development:
            # Update _versionSentinel, when changing any default value, to invalidate settings.ini!
            # Recommended value is the md5 hexdigest of time.strftime("%a, %b %d %Y %H:%M:%S +0000", time.gmtime()).
            # To generate a new value you can run buildscripts/versionsentinel.py.

            self._default_settings = {
                'realtimeUpdates': True,
                'realtimeFitting': True,
                'realtimeNormalUpdates': False,
                'cameraAutoZoom': False,
                'lowspeed': 1,
                'highspeed': 5,
                'units':'metric',
                'real_weight': False,
                'invertMouseWheel':False,
                'language':'english',
                'excludePlugins':[],
                'activeUserPlugins': [],
                'rtl': False,
                'sliderImages': True,
                'guiTheme': 'makehuman',
                'sliderEditWidgetVisibility': False,
                'preloadTargets': False,
                'restoreWindowSize': True,
                'windowGeometry': '',
                'useHDPI': False,
                'noShaders': False,
                'noSampleBuffers': False,
                'tagFilterMode': 'OR',
                'useNameTags': False,
                'tagCount': 5,
                'makehumanTags': ['makehuman™'],
                'keepCustomValues': False,
                '_versionSentinel': 'B26472743DC5DCE1721ADB5A91AAECAA' # GM Time was: Thu, Jun 25 2020 22:30:01 +0000
            }

        self._settings = dict(self._default_settings)

        self.loadHandlers = {}
        self.saveHandlers = []

        self.dialog = None
        self.helpIds = set()

        self.tool = None
        self.selectedGroup = None

        self.undoStack = []
        self.redoStack = []

        self.actions = None

        self.clearColor = [0.5, 0.5, 0.5]
        self.gridColor = [1.0, 1.0, 1.0]
        self.gridSubColor = [0.7, 0.7, 0.7]

        self.modules = {}

        self.selectedHuman = None
        self.currentFile = managed_file.File()
        self._scene = None
        self.backplaneGrid = None
        self.groundplaneGrid = None
        self.backgroundGradient = None

        self.theme = None

        @self.currentFile.mhEvent
        def onModified(event):
            self.updateFilenameCaption()

        #self.modelCamera = mh.Camera()
        #self.modelCamera.switchToOrtho()
        self.modelCamera = mh.OrbitalCamera()
        #self.modelCamera.debug = True

        @self.modelCamera.mhEvent
        def onChanged(event):
            self.callEventHandlers('onCameraChanged', event)

        mh.cameras.append(self.modelCamera)

        #self.guiCamera = mh.Camera()
        #self.guiCamera._fovAngle = 45
        #self.guiCamera._eyeZ = 10
        #self.guiCamera._projection = 0

        # TODO use simpler camera for gui
        self.guiCamera = mh.OrbitalCamera()

        mh.cameras.append(self.guiCamera)

    @property
    def settings(self):
        """READ-ONLY dict of the settings of this application. Changing this
        dict has NO impact."""
        return dict(self._settings)

    def addSetting(self, setting_name, default_value, value=None):
        """Declare a new setting for this application. Only has an impact the
        first time it's called for a unique setting_name. It's impossible to
        re-declare defaults for settings.
        """
        if setting_name == 'version':
            raise KeyError('The keyword "version" is protected for settings')

        if setting_name in self._default_settings:
            log.notice("Setting %s is already declared. Adding it again has no effect." % setting_name)
            return
        self._default_settings[setting_name] = default_value
        if value is None:
            if setting_name in self._undeclared_settings:
                # Deferred set of setting value
                log.debug("Assigning setting %s value %s that was loaded before the setting was declared." % (setting_name, self._undeclared_settings[setting_name]))
                self._settings[setting_name] = self._undeclared_settings[setting_name]
                del self._undeclared_settings[setting_name]
            else:
                self._settings[setting_name] = default_value
        else:
            self._settings[setting_name] = value

    def getSetting(self, setting_name):
        """Retrieve the value of a setting.
        """
        if setting_name not in self._default_settings:
            raise KeyError("Setting %s is unknown, make sure to declare it first with addSetting()" % setting_name)
        return self._settings.get(setting_name, self.getSettingDefault(setting_name))

    def getSettingDefault(self, setting_name):
        """Retrieve the default value declared for a setting."""
        return self._default_settings[setting_name]

    def setSetting(self, setting_name, value):
        """Change the value of a setting. If value == None, the default value
        for that setting is restored."""
        if setting_name not in self._default_settings:
            raise KeyError("Setting %s is not declared" % setting_name)
        if value is None:
            self._settings[setting_name] = self.getSettingDefault(setting_name)
        else:
            self._settings[setting_name] = value

    def resetSettings(self):
        """Restore all settings to their defaults
        """
        self._settings = dict(self._default_settings)

    def _versionSentinel(self):
        # dummy method used for checking the shortcuts.ini version
        pass

    @property
    def args(self):
        return G.args

    def loadHumanMHM(self, filename):
        self.selectedHuman.load(filename, True)
        self.clearUndoRedo()
        # Reset mesh is never forced to wireframe
        self.actions.wireframe.setChecked(False)

    # TO THINK: Maybe move guisave's saveMHM here as saveHumanMHM?

    def loadHuman(self):
        # Set a lower than default MAX_FACES value because we know the human has a good topology (will make it a little faster)
        # (we do not lower the global limit because that would limit the selection of meshes that MH would accept too much)
        self.selectedHuman = self.addObject(human.Human(files3d.loadMesh(mh.getSysDataPath("3dobjs/base.obj"), maxFaces = 5)))

        # Set the base skeleton
        base_skel = skeleton.load(mh.getSysDataPath('rigs/default.mhskel'), self.selectedHuman.meshData)
        self.selectedHuman.setBaseSkeleton(base_skel)

    def loadScene(self):
        userSceneDir = mh.getDataPath("scenes")
        if not os.path.exists(userSceneDir):
            os.makedirs(userSceneDir)

        from scene import Scene
        from getpath import findFile
        self.setScene( Scene(findFile("scenes/default.mhscene")) )

    def loadMainGui(self):
        @self.selectedHuman.mhEvent
        def onMouseDown(event):
          if self.tool:
            self.selectedGroup = self.getSelectedFaceGroup()
            self.tool.callEvent("onMouseDown", event)
          else:
            self.currentTask.callEvent("onMouseDown", event)

        @self.selectedHuman.mhEvent
        def onMouseMoved(event):
          if self.tool:
            self.tool.callEvent("onMouseMoved", event)
          else:
            self.currentTask.callEvent("onMouseMoved", event)

        @self.selectedHuman.mhEvent
        def onMouseDragged(event):
          if self.tool:
            self.tool.callEvent("onMouseDragged", event)
          else:
            self.currentTask.callEvent("onMouseDragged", event)

        @self.selectedHuman.mhEvent
        def onMouseUp(event):
          if self.tool:
            self.tool.callEvent("onMouseUp", event)
          else:
            self.currentTask.callEvent("onMouseUp", event)

        @self.selectedHuman.mhEvent
        def onMouseEntered(event):
          if self.tool:
            self.tool.callEvent("onMouseEntered", event)
          else:
            self.currentTask.callEvent("onMouseEntered", event)

        @self.selectedHuman.mhEvent
        def onMouseExited(event):
          if self.tool:
            self.tool.callEvent("onMouseExited", event)
          else:
            self.currentTask.callEvent("onMouseExited", event)

        @self.selectedHuman.mhEvent
        def onMouseWheel(event):
          if self.tool:
            self.tool.callEvent("onMouseWheel", event)
          else:
            self.currentTask.callEvent("onMouseWheel", event)

        @self.selectedHuman.mhEvent
        def onChanging(event):
            self.callEventHandlers('onHumanChanging', event)

        @self.selectedHuman.mhEvent
        def onChanged(event):
            self.actions.pose.setEnabled(self.selectedHuman.isPoseable())

            if event.change == 'smooth':
                # Update smooth action state (without triggering it)
                self.actions.smooth.setChecked(self.selectedHuman.isSubdivided())
            elif event.change in ['poseState', 'poseRefresh']:
                self.actions.pose.setChecked(self.selectedHuman.isPosed())
            elif event.change == 'load':
                self.currentFile.loaded(event.path)
            elif event.change == 'save':
                self.currentFile.saved(event.path)
            elif event.change == 'reset':
                self.currentFile.closed()
            self.callEventHandlers('onHumanChanged', event)

        @self.selectedHuman.mhEvent
        def onTranslated(event):
            self.callEventHandlers('onHumanTranslated', event)

        @self.selectedHuman.mhEvent
        def onRotated(event):
            self.callEventHandlers('onHumanRotated', event)

        @self.selectedHuman.mhEvent
        def onShown(event):
            self.callEventHandlers('onHumanShown', event)

        @self.selectedHuman.mhEvent
        def onHidden(event):
            self.callEventHandlers('onHumanHidden', event)

        @self.modelCamera.mhEvent
        def onRotated(event):
            self.callEventHandlers('onCameraRotated', event)

        # Set up categories and tasks
        self.files = guifiles.FilesCategory(self)
        self.getCategory("Modelling")
        self.getCategory("Geometries")
        self.getCategory("Materials")
        self.getCategory("Pose/Animate")
        self.getCategory("Rendering")

    def loadPlugins(self):

        pluginsToLoad = []

        sys_path = os.path.abspath(mh.getSysPath('plugins'))
        user_path = mh.getPath('plugins')

        for file in os.listdir(sys_path):

            location = os.path.join(sys_path, file)

            if os.path.isdir(location) and not file.startswith('_'):
                pLocation = os.path.join(location, '__init__.py')
                if os.path.isfile(pLocation):
                    pluginsToLoad.append((file, pLocation))

            elif os.path.isfile(location) and file.endswith('.py') and not file.startswith('_'):
                name = os.path.splitext(file)[0]
                pluginsToLoad.append((name, location))

        for file in os.listdir(user_path):

            location = os.path.join(user_path, file)

            if os.path.isdir(location) and not file.startswith('_') and file in self.getSetting('activeUserPlugins'):
                pLocation = os.path.join(location, '__init__.py')
                if os.path.isfile(pLocation):
                    pluginsToLoad.append((file, pLocation))

            elif os.path.isfile(location) and file.endswith('.py') and not file.startswith('_') and os.path.splitext(file)[0] in self.getSetting('activeUserPlugins'):
                name = os.path.splitext(file)[0]
                pluginsToLoad.append((name, location))

        for name, location in sorted(pluginsToLoad, key=lambda plugin: plugin[0]):
            self.loadPlugin(name=name, location=location)

    def loadPlugin(self, name, location):

        if not name in self.getSetting('excludePlugins'):

            try:
                log.message('Importing plugin %s', name)
                spec = importlib.util.spec_from_file_location(name=name, location=location)
                if not spec:
                    log.message("Could not import plugin: %s", name)
                    return False
                else:
                    module = importlib.util.module_from_spec(spec)
                    sys.modules[name] = module

                    spec.loader.exec_module(module)
                    self.modules[name] = module

                    log.message('Imported plugin %s', name)

                    log.message('Loading plugin %s', name)
                    module.load(self)
                    log.message('Loaded plugin %s', name)

                    self.processEvents()
                    return True

            except:
                log.warning('Could not load %s', name, exc_info=True)
                return False

        else:
            self.modules[name] = None
            return False

    def unloadPlugins(self):

        for name, module in self.modules.items():
            if module is None:
                continue
            try:
                log.message('Unloading plugin %s', name)
                module.unload(self)
                log.message('Unloaded plugin %s', name)
            except Exception as _:
                log.warning('Could not unload %s', name, exc_info=True)

    def getLoadedPlugins(self):
        """
        Get the names of loaded plugins.
        """
        return list(self.modules.keys())

    def getPlugin(self, name):
        """
        Get the (python) module of the plugin with specified name.
        """
        return self.modules[name]

    def loadGui(self):

        progress = Progress(5)

        category = self.getCategory('Settings')
        category.addTask(PluginsTaskView(category))
        progress.step()

        mh.refreshLayout()
        progress.step()

        self.switchCategory("Modelling")
        progress.step()

        # Create viewport grid
        self.loadGrid()
        progress.step()

        # Create background gradient
        self.loadBackgroundGradient()
        progress.step()

        # self.progressBar.hide()

    def loadGrid(self):
        if self.backplaneGrid:
            self.removeObject(self.backplaneGrid)

        if self.groundplaneGrid:
            self.removeObject(self.groundplaneGrid)

        offset = self.selectedHuman.getJointPosition('ground')[1]
        spacing = 1 if self.getSetting('units') == 'metric' else 3.048

        # Background grid
        gridSize = int(200//spacing)
        if gridSize % 2 != 0:
            gridSize += 1
        if self.getSetting('units') == 'metric':
            subgrids = 10
        else:
            subgrids = 12
        backGridMesh = geometry3d.GridMesh(gridSize, gridSize, spacing, offset = -10, plane = 0, subgrids = subgrids)
        backGridMesh.setMainColor(self.gridColor)
        backGridMesh.setSubColor(self.gridSubColor)
        backGridMesh.restrictVisibleToCamera = True
        backGridMesh.minSubgridZoom = (1.0/spacing) * float(subgrids)/5
        self.backplaneGrid = gui3d.Object(backGridMesh)
        self.backplaneGrid.excludeFromProduction = True
        self.backplaneGrid.placeAtFeet = True
        self.backplaneGrid.lockRotation = True
        self.backplaneGrid.setShadeless(1)
        #self.backplaneGrid.setPosition([0,offset,0])
        self.addObject(self.backplaneGrid)

        # Ground grid
        gridSize = int(20//spacing)
        if gridSize % 2 != 0:
            gridSize += 1
        groundGridMesh = geometry3d.GridMesh(gridSize, gridSize, spacing, offset = 0, plane = 1, subgrids = subgrids)
        groundGridMesh.setMainColor(self.gridColor)
        groundGridMesh.setSubColor(self.gridSubColor)
        groundGridMesh.minSubgridZoom = (1.0/spacing) * float(subgrids)/5
        self.groundplaneGrid = gui3d.Object(groundGridMesh)
        self.groundplaneGrid.excludeFromProduction = True
        self.groundplaneGrid.placeAtFeet = True
        self.groundplaneGrid.setShadeless(1)
        #self.groundplaneGrid.setPosition([0,offset,0])
        groundGridMesh.restrictVisibleAboveGround = True
        self.addObject(self.groundplaneGrid)

        self.actions.grid.setChecked(True)

    def loadBackgroundGradient(self):
        import numpy as np

        if self.backgroundGradient:
            self.removeObject(self.backgroundGradient)

        mesh = geometry3d.RectangleMesh(10, 10, centered=True)

        mesh.setColors(self.bgBottomLeftColor, self.bgBottomRightColor, 
                       self.bgTopRightColor, self.bgTopLeftColor)

        self.backgroundGradient = gui3d.Object(mesh)
        self.backgroundGradient.priority = -200
        self.backgroundGradient.excludeFromProduction = True
        self.backgroundGradient.setShadeless(1)
        self.backgroundGradient.material.configureShading(vertexColors=True)

        self.addObject(self.backgroundGradient)

        self._updateBackgroundDimensions()

    def onResizedCallback(self, event):
        gui3d.Application.onResizedCallback(self, event)
        self._updateBackgroundDimensions()

    def _updateBackgroundDimensions(self, width=G.windowWidth, height=G.windowHeight):
        if self.backgroundGradient is None:
            return

        cam = self.backgroundGradient.mesh.getCamera()
        #minX,minY,_ = cam.convertToWorld2D(0,0)
        #maxX,maxY,_ = cam.convertToWorld2D(width, height)
        #self.backgroundGradient.mesh.resize(abs(maxX - minX), abs(maxY - minY))

        # TODO hack for orbital camera, properly clean this up some day
        height = cam.getScale()
        aspect = cam.getAspect()
        width = height * aspect
        self.backgroundGradient.mesh.resize(2.1*width, 2.1*height)

        self.backgroundGradient.setPosition([0, 0, -0.85*cam.farPlane])

    def loadMacroTargets(self):
        """
        Preload all target files belonging to group macrodetails and its child
        groups.
        """
        import targets
        #import getpath
        for target in targets.getTargets().findTargets('macrodetails'):
            #log.debug('Preloading target %s', getpath.getRelativePath(target.path))
            algos3d.getTarget(self.selectedHuman.meshData, target.path)

    def loadFinish(self):
        self.selectedHuman.updateMacroModifiers()
        self.selectedHuman.applyAllTargets()

        self.currentFile.modified = False

        #printtree(self)

        mh.changeCategory("Modelling")

        self.redraw()

    def startupSequence(self):
        self._processCommandlineArgs(beforeLoaded = True)

        mainwinGeometry = self.mainwin.storeGeometry()
        mainwinBorder = (self.mainwin.frameGeometry().width() - self.mainwin.width(),
             self.mainwin.frameGeometry().height() - self.mainwin.height())

        # Move main window completely behind splash screen
        self.mainwin.resize(self.splash.width() - mainwinBorder[0], self.splash.height() - mainwinBorder[1])
        self.mainwin.move(self.splash.pos())

        #self.splash.setFormat('<br><br><b><font size="10" color="#ffffff">%s</font></b>')

        progress = Progress([36, 6, 15, 333, 40, 154, 257, 5], messaging=True)

        progress.firststep('Loading human')
        self.loadHuman()

        progress.step('Loading scene')
        self.loadScene()

        progress.step('Loading main GUI')
        self.loadMainGui()

        progress.step('Loading plugins')
        self.loadPlugins()

        progress.step('Loading GUI')
        self.loadGui()

        progress.step('Loading theme')
        try:
            self.setTheme(self.getSetting('guiTheme'))
        except:
            self.setTheme("default")
        try:
            self.setSliderEditWidgetVisibility(self.getSetting('sliderEditWidgetVisibility'))
        except:
            self.setSliderEditWidgetVisibility(False)

        progress.step('Applying targets')
        self.loadFinish()
        
        progress.step('Loading macro targets')
        if self.getSetting('preloadTargets'):
            self.loadMacroTargets()

        progress.step('Loading done')

        log.message('') # Empty status indicator

        if sys.platform.startswith("darwin"):
            self.splash.resize(0,0) # work-around for mac splash-screen closing bug

        self.mainwin.show()
        self.splash.hide()
        # self.splash.finish(self.mainwin)
        self.splash.close()
        self.splash = None
            
        if (not self.args.get('noshaders', False) or G.preStartupSettings["noShaders"]) and \
          ( not mh.Shader.supported() or mh.Shader.glslVersion() < (1,20) ):
            self.prompt('Warning', 'GLSL shaders have been disabled or are not supported.\nOnly simple shading will be available.', 'Ok', None, None, None, 'glslWarning')

        # Restore main window size and position
        geometry = self.getSetting('windowGeometry')
        if self.getSetting('restoreWindowSize') and geometry:
            self.mainwin.restoreGeometry(geometry)
        else:
            self.mainwin.restoreGeometry(mainwinGeometry)

        self._processCommandlineArgs(beforeLoaded = False)

    def _processCommandlineArgs(self, beforeLoaded):
        if beforeLoaded:
            if self.args.get('noshaders', False):
                log.message("Force shaders disabled")

        else: # After application is loaded
            if self.args.get('mhmFile', None):
                import getpath
                mhmFile = getpath.pathToUnicode( self.args.get('mhmFile') )
                log.message("Loading MHM file %s (as specified by commandline argument)", mhmFile)
                if not os.path.isfile(mhmFile):
                    mhmFile = getpath.findFile(mhmFile, mh.getPath("models"))
                if os.path.isfile(mhmFile):
                    self.loadHumanMHM(mhmFile)
                else:
                    log.error("Failed to load MHM file. The MHM file specified as argument (%s) does not exist!", mhmFile)
            if self.args.get('runtests', False):
                log.message("Running test suite")
                import testsuite
                testsuite.runAll()

    # Events
    def onStart(self, event):
        self.startupSequence()

    def onStop(self, event):
        if self.getSetting('restoreWindowSize'):
            self.setSetting('windowGeometry', self.mainwin.storeGeometry())

        self.saveSettings(True)
        self.unloadPlugins()
        self.dumpMissingStrings()
        self.files.load.unload()

    def onQuit(self, event):
        self.promptAndExit()

    def onMouseDown(self, event):
        if self.selectedHuman.isVisible():
            # Normalize modifiers
            modifiers = mh.getKeyModifiers() & (mh.Modifiers.CTRL | mh.Modifiers.ALT | mh.Modifiers.SHIFT)

            if (modifiers, event.button) in self.mouseActions:
                action = self.mouseActions[(modifiers, event.button)]
                if action == self.mouseFocus:
                    self.modelCamera.mousePickHumanFocus(event.x, event.y)
                elif action == self.mouseZoom:
                    self.modelCamera.mousePickHumanCenter(event.x, event.y)

    def onMouseDragged(self, event):

        if self.selectedHuman.isVisible():
            # Normalize modifiers
            modifiers = mh.getKeyModifiers() & (mh.Modifiers.CTRL | mh.Modifiers.ALT | mh.Modifiers.SHIFT)

            if (modifiers, event.button) in self.mouseActions:
                self.mouseActions[(modifiers, event.button)](event)

    def onMouseWheel(self, event):
        if self.selectedHuman.isVisible():
            zoomOut = event.wheelDelta > 0
            if self.getSetting('invertMouseWheel'):
                zoomOut = not zoomOut

            if event.x is not None:
                self.modelCamera.mousePickHumanCenter(event.x, event.y)

            if zoomOut:
                self.zoomOut()
            else:
                self.zoomIn()

    # Undo-redo
    def do(self, action):
        if action.do():
            self.undoStack.append(action)
            del self.redoStack[:]
            self.currentFile.changed()
            log.message('do %s', action.name)
            self.syncUndoRedo()

    def did(self, action):
        self.undoStack.append(action)
        self.currentFile.changed()
        del self.redoStack[:]
        log.message('did %s', action.name)
        self.syncUndoRedo()

    def undo(self):
        if self.undoStack:
            action = self.undoStack.pop()
            log.message('undo %s', action.name)
            action.undo()
            self.redoStack.append(action)
            self.currentFile.changed()
            self.syncUndoRedo()

    def redo(self):
        if self.redoStack:
            action = self.redoStack.pop()
            log.message('redo %s', action.name)
            action.do()
            self.undoStack.append(action)
            self.currentFile.changed()
            self.syncUndoRedo()

    def syncUndoRedo(self):
        self.actions.undo.setEnabled(bool(self.undoStack))
        self.actions.redo.setEnabled(bool(self.redoStack))
        self.redraw()

    def clearUndoRedo(self):
        self.undoStack = []
        self.redoStack = []
        self.syncUndoRedo()

    # Settings

    def loadSettings(self):
        with inFile("settings.ini") as f:
            settings = {}
            if f:
                settings = mh.parseINI(f.read())
            else:
                log.warning("No settings file found, starting with default settings.")

        if not mh.isRelease() and settings:
            if self._default_settings.get('_versionSentinel') != settings.get('_versionSentinel'):
                log.warning('Default settings were changed, invalidating settings.ini')
                return

        if settings.get('version') == mh.getVersionDigitsStr():
            # Only load settings for this specific version
            del settings['version']
            for setting_name, value in settings.items():
                try:
                    self.setSetting(setting_name, value)
                except:
                    # Store the values of (yet) undeclared settings and defer until plugins are loaded
                    self._undeclared_settings[setting_name] = value
        else:
            log.warning("Incompatible MakeHuman settings (version %s) detected (expected %s). Loading default settings." % (settings.get('version','undefined'), mh.getVersionDigitsStr()))


        if 'language' in self.settings:
            self.setLanguage(self.settings['language'])

        gui.Slider.showImages(self.settings['sliderImages'])

        with inFile("shortcuts.ini") as f:
            shortcuts = {}
            for line in f:
                modifier, key, action = line.strip().split(' ')
                shortcuts[action] = (int(modifier), int(key))
            if shortcuts.get('_versionSentinel') != (0, 0x87654321):
                log.warning('shortcuts.ini out of date; ignoring')
            else:
                self.shortcuts.update(shortcuts)

        with inFile("mouse.ini") as f:
            mouseActions = dict([(method.__name__, shortcut)
                                 for shortcut, method in self.mouseActions.items()])
            for line in f:
                modifier, button, method = line.strip().split(' ')
                if hasattr(self, method):
                    mouseActions[method] = (int(modifier), int(button))
            self.mouseActions = dict([(shortcut, getattr(self, method))
                                      for method, shortcut in mouseActions.items()])

        with inFile("help.ini") as f:
            helpIds = set()
            for line in f:
                helpIds.add(line.strip())
            if self.dialog is not None:
                self.dialog.helpIds.update(self.helpIds)
            self.helpIds = helpIds

    def saveSettings(self, promptOnFail=False):
        try:
            if not os.path.exists(mh.getPath()):
                os.makedirs(mh.getPath())

            with outFile("settings.ini") as f:
                settings = self.settings
                settings['version'] = mh.getVersionDigitsStr() 
                f.write(mh.formatINI(settings))

            with outFile("shortcuts.ini") as f:
                for action, shortcut in self.shortcuts.items():
                    f.write('%d %d %s\n' % (shortcut[0], shortcut[1], action))

            with outFile("mouse.ini") as f:
                for mouseAction, method in self.mouseActions.items():
                    f.write('%d %d %s\n' % (mouseAction[0], mouseAction[1], method.__name__))

            if self.dialog is not None:
                self.helpIds.update(self.dialog.helpIds)

            with outFile("help.ini") as f:
                for helpId in self.helpIds:
                    f.write('%s\n' % helpId)
        except:
            log.error('Failed to save settings file', exc_info=True)
            if promptOnFail:
                self.prompt('Error', 'Could not save settings file.', 'OK')

    def setSliderEditWidgetVisibility(self, isVisible):
        for widget in self.allWidgets():
            if isinstance(widget, gui.Slider):
                widget.setEditWidgetVisibility(isVisible)


    # Themes
    def setTheme(self, theme):
        # Disabling this check allows faster testing of a skin by reloading it.
        #if self.theme == theme:
        #    return

        # Set defaults
        self.clearColor = [0.5, 0.5, 0.5]
        self.gridColor = [1.0, 1.0, 1.0]
        self.gridSubColor = [0.7, 0.7, 0.7]
        log._logLevelColors[log.DEBUG] = 'grey'
        log._logLevelColors[log.NOTICE] = 'blue'
        log._logLevelColors[log.WARNING] = 'darkorange'
        log._logLevelColors[log.ERROR] = 'red'
        log._logLevelColors[log.CRITICAL] = 'red'
        self.bgBottomLeftColor = [0.101, 0.101, 0.101]
        self.bgBottomRightColor = [0.101, 0.101, 0.101]
        self.bgTopLeftColor = [0.312, 0.312, 0.312]
        self.bgTopRightColor = [0.312, 0.312, 0.312]

        with open(os.path.join(mh.getSysDataPath("themes/"), theme + ".mht"), 'r', encoding='utf-8') as f:

            update_log = False
            for data in f.readlines():
                lineData = data.split()

                if len(lineData) > 0:
                    if lineData[0] == "version":
                        log.message('Theme %s version %s', theme, lineData[1])
                    elif lineData[0] == "color":
                        if lineData[1] == "clear":
                            self.clearColor[:] = [float(val) for val in lineData[2:5]]
                        elif lineData[1] == "grid":
                            self.gridColor[:] = [float(val) for val in lineData[2:5]]
                        elif lineData[1] == "subgrid":
                            self.gridSubColor[:] = [float(val) for val in lineData[2:5]]
                        elif lineData[1] == "bgbottomleft":
                            self.bgBottomLeftColor[:] = [float(val) for val in lineData[2:5]]
                        elif lineData[1] == "bgbottomright":
                            self.bgBottomRightColor[:] = [float(val) for val in lineData[2:5]]
                        elif lineData[1] == "bgtopleft":
                            self.bgTopLeftColor[:] = [float(val) for val in lineData[2:5]]
                        elif lineData[1] == "bgtopright":
                            self.bgTopRightColor[:] = [float(val) for val in lineData[2:5]]
                    elif lineData[0] == "logwindow_color":
                        logLevel = lineData[1]
                        if hasattr(log, logLevel) and isinstance(getattr(log, logLevel), int):
                            update_log = True
                            logLevel = int(getattr(log, logLevel))
                            log._logLevelColors[logLevel] = lineData[2]

        if self.groundplaneGrid:
            self.groundplaneGrid.mesh.setMainColor(self.gridColor)
            self.groundplaneGrid.mesh.setSubColor(self.gridSubColor)
        if self.backplaneGrid:
            self.backplaneGrid.mesh.setMainColor(self.gridColor)
            self.backplaneGrid.mesh.setSubColor(self.gridSubColor)
        if self.backgroundGradient:
            self.backgroundGradient.mesh.setColors(self.bgBottomLeftColor, 
                                                   self.bgBottomRightColor, 
                                                   self.bgTopRightColor, 
                                                   self.bgTopLeftColor)
        mh.setClearColor(self.clearColor[0], self.clearColor[1], self.clearColor[2], 1.0)

        if update_log:
            self.log_window.updateView()
        log.debug("Loaded theme %s", mh.getSysDataPath('themes/'+theme+'.mht'))

        try:
            with open(mh.getSysDataPath('themes/%s.qss' % theme), 'r', encoding='utf-8') as f:
                qStyle = "\n".join(f.readlines())
                self.setStyleSheet(qStyle)
                # Also set stylesheet on custom slider style
                for widget in self.allWidgets():
                    if isinstance(widget, gui.Slider):
                        widget.setStyleSheet(qStyle)
                log.debug("Loaded Qt style %s", mh.getSysDataPath('themes/'+theme+'.qss'))
        except:
            self.setStyleSheet("")
            # Also set stylesheet on custom slider style
            for widget in self.allWidgets():
                if isinstance(widget, gui.Slider):
                    widget.setStyleSheet("")
            '''
            if theme != "default":
                log.warning('Could not open Qt style file %s.', mh.getSysDataPath('themes/'+theme+'.qss'))
            '''

        self.theme = theme
        self.reloadIcons()
        self.redraw()

    def reloadIcons(self):
        if not self.actions:
            return
        for action in self.actions:
            action.setIcon(gui.Action.getIcon(action.name))

    def getLookAndFeelStyles(self):
        return [ str(style) for style in gui.QtGui.QStyleFactory.keys() ]

    def setLookAndFeel(self, platform):
        style = gui.QtGui.QStyleFactory.create(platform)
        self.setStyle(style)

    def getLookAndFeel(self):
        return str(self.style().objectName())

    def getThemeResource(self, folder, id):
        if '/' in id:
            return id
        path = os.path.join(mh.getSysDataPath("themes/"), self.theme, folder, id)
        if os.path.exists(path):
            return path
        else:
            return os.path.join(mh.getSysDataPath("themes/default/"), folder, id)

    def setLanguage(self, lang):
        log.debug("Setting language to %s", lang)
        language.language.setLanguage(lang)
        self.setSetting('rtl', language.language.rtl)

    def getLanguages(self):
        """
        The languages available on this MH installation, by listing all .json
        files in the languages folder in user and system data path.
        """
        return language.getLanguages()

    def getLanguageString(self, string, appendData=None, appendFormat=None):
        return language.language.getLanguageString(string,appendData,appendFormat)

    def dumpMissingStrings(self):
        language.language.dumpMissingStrings()

    # Caption
    def setCaption(self, caption):
        """Set the main window caption."""
        mh.setCaption(caption)

    def updateFilenameCaption(self):
        """Calculate and set the window title according to the
        name of the current open file and the version of MH."""
        filename = self.currentFile.name
        if filename is None:
            filename = "Untitled"

        mhv = MHVersion()

        from getpath import pathToUnicode
        self.setCaption("%s - [%s][*]" % (mhv.fullTitle, pathToUnicode(filename)))

        self.mainwin.setWindowModified(self.currentFile.modified)

    # Global status bar
    def status(self, text, *args):
        if self.statusBar is None:
            return
        self.statusBar.showMessage(text, *args)

    def statusPersist(self, text, *args):
        if self.statusBar is None:
            return
        self.statusBar.setMessage(text, *args)

    # Global progress bar
    def progress(self, value, text=None, *args):
        if text is not None:
            self.status(text, *args)

        if self.splash:
            self.splash.setProgress(value)
            self.splash.raise_()

        if self.progressBar is None:
            return

        if value >= 1.0:
            self.progressBar.reset()
        else:
            self.progressBar.setProgress(value)

        self.mainwin.canvas.blockRedraw = True

        # Process all non-user-input events in the queue to run callAsync tasks.
        # This is invoked here so events are processed in every step during the
        # onStart() init sequence.
        self.processEvents()

        self.mainwin.canvas.blockRedraw = False

    # Global dialog
    def prompt(self, title, text, button1Label, button2Label=None, button1Action=None, button2Action=None, helpId=None, fmtArgs = None):
        if fmtArgs is None:
            fmtArgs = []
        elif isinstance(fmtArgs, str):
            fmtArgs = [fmtArgs]
        if self.dialog is None:
            self.dialog = gui.Dialog(self.mainwin)
            self.dialog.helpIds.update(self.helpIds)
        return self.dialog.prompt(title, text, button1Label, button2Label, button1Action, button2Action, helpId, fmtArgs)

    def about(self):
        """
        Show about dialog
        """
        abouttext = '<h1>MakeHuman license</h1>' + mh.getCopyrightMessage() + "\n\n" + mh.getSoftwareLicense(richtext=True) + "\n\n\n" + mh.getThirdPartyLicenses(richtext=True)

        aboutbox = gui.AboutBoxScrollbars(self.mainwin, 'About MakeHuman', abouttext, "MakeHuman v"+mh.getVersionStr(verbose=False, full=True))
        aboutbox.show()
        aboutbox.exec_()

    def credits(self):
        """
        Show credits dialog
        """
        abouttext = '<h1>MakeHuman credits</h1>' + mh.getCredits(richtext=True) + "\n\n"
        aboutbox = gui.AboutBoxScrollbars(self.mainwin, 'Credits', abouttext, "MakeHuman v"+mh.getVersionStr(verbose=False, full=True))
        aboutbox.show()
        aboutbox.exec_()

    def setGlobalCamera(self):
        human = self.selectedHuman

        tl = animation3d.Timeline(0.20)
        tl.append(animation3d.PathAction(self.modelCamera, [self.modelCamera.getPosition(), [0.0, 0.0, 0.0]]))
        tl.append(animation3d.RotateAction(self.modelCamera, self.modelCamera.getRotation(), [0.0, 0.0, 0.0]))
        tl.append(animation3d.ZoomAction(self.modelCamera, self.modelCamera.zoomFactor, 1.0))
        tl.append(animation3d.UpdateAction(self))
        tl.start()

    def setTargetCamera(self, vIdx, zoomFactor = 1.0, animate = True):
        if isinstance(vIdx, (tuple, list)):
            return
        human = self.selectedHuman
        coord = human.meshData.coord[vIdx]
        direction = human.meshData.vnorm[vIdx].copy()
        self.modelCamera.focusOn(coord, direction, zoomFactor, animate)
        if not animate:
            self.redraw()

    def setFaceCamera(self):
        self.setTargetCamera(132, 8.7)

    def setLeftHandFrontCamera(self):
        self.setTargetCamera(9828, 10)

    def setLeftHandTopCamera(self):
        self.setTargetCamera(9833, 10)

    def setRightHandFrontCamera(self):
        self.setTargetCamera(3160, 10)

    def setRightHandTopCamera(self):
        self.setTargetCamera(3165, 10)

    def setLeftFootFrontCamera(self):
        self.setTargetCamera(12832, 7.7)

    def setLeftFootLeftCamera(self):
        self.setTargetCamera(12823, 7)

    def setRightFootFrontCamera(self):
        self.setTargetCamera(6235, 7.7)

    def setRightFootRightCamera(self):
        self.setTargetCamera(6208, 7)

    def setLeftArmFrontCamera(self):
        self.setTargetCamera(9981, 4.2)

    def setLeftArmTopCamera(self):
        self.setTargetCamera(9996, 2.9)

    def setRightArmFrontCamera(self):
        self.setTargetCamera(3330, 4.2)

    def setRightArmTopCamera(self):
        self.setTargetCamera(3413, 2.9)

    def setLeftLegFrontCamera(self):
        self.setTargetCamera(11325, 2.7)

    def setLeftLegLeftCamera(self):
        self.setTargetCamera(11381, 2.3)

    def setRightLegFrontCamera(self):
        self.setTargetCamera(4707, 2.7)

    def setRightLegRightCamera(self):
        self.setTargetCamera(4744, 2.3)

    def getScene(self):
        """
        The scene used for rendering the viewport.
        """
        return self._scene

    def setScene(self, scene):
        """
        Set the scene used for rendering the viewport,
        and connect its events with appropriate handler methods.
        """
        setSceneEvent = managed_file.FileModifiedEvent.fromObjectAssignment(
            scene.file if scene else None,
            self._scene.file if self._scene else None)

        self._scene = scene

        if self._scene is None:
            return

        @self._scene.file.mhEvent
        def onModified(event):
            self._sceneChanged(event)

        self._sceneChanged(setSceneEvent)

    scene = property(getScene, setScene)

    def _sceneChanged(self, event):
        """
        Method to be called internally when the scene is modified,
        that updates the view according to the modified scene,
        and emits the onSceneChanged event application - wide.
        """
        if event.file != self.scene.file:
            return

        if event.objectWasChanged:
            from glmodule import setSceneLighting
            setSceneLighting(self.scene)

        for category in self.categories.values():
            self.callEventHandlers('onSceneChanged', event)

    # Shortcuts
    def setShortcut(self, modifier, key, action):

        shortcut = (modifier, key)

        if shortcut in self.shortcuts.values():
            self.prompt('Warning', 'This combination is already in use.', 'OK', helpId='shortcutWarning')
            return False

        self.shortcuts[action.name] = shortcut
        mh.setShortcut(modifier, key, action)

        return True

    def resetShortcuts(self):

        self.shortcuts = dict(self._default_shortcuts)
        for action, (modifier, key) in self.shortcuts.items():
            action = getattr(self.actions, action, None)
            if action is not None:
                mh.setShortcut(modifier, key, action)

    def getShortcut(self, action):
        return self.shortcuts.get(action.name)

    # Mouse actions
    def setMouseAction(self, modifier, key, method):

        mouseAction = (modifier, key)

        if mouseAction in self.mouseActions:
            self.prompt('Warning', 'This combination is already in use.', 'OK', helpId='mouseActionWarning')
            return False

        # Remove old entry
        for s, m in self.mouseActions.items():
            if m == method:
                del self.mouseActions[s]
                break

        self.mouseActions[mouseAction] = method

        #for mouseAction, m in self.mouseActions.iteritems():
        #    print (mouseAction, m)

        return True

    def getMouseAction(self, method):

        for mouseAction, m in self.mouseActions.items():
            if m == method:
                return mouseAction

    # Load handlers

    def addLoadHandler(self, keyword, handler):
        """Register a handler for handling the loading of the specified
        keyword from MHM file."""
        self.loadHandlers[keyword] = handler

    def getLoadHandler(self, keyword):
        """Retrieve the plugin or handler that handles the loading of the
        specified keyword from MHM file.
        """
        self.loadHandlers.get(keyword, None)

    # Save handlers

    def addSaveHandler(self, handler, priority = None):
        """
        Register a handler to trigger when a save action happens, when called
        the handler gets the chance to write property lines to the MHM file.
        If priority is specified, should be an integer number > 0.
        0 is highest priority.
        """
        if priority is None:
            self.saveHandlers.append(handler)
        else:
            # TODO more robust solution for specifying priority weights
            self.saveHandlers.insert(priority, handler)

    # Shortcut methods

    def goToModelling(self):
        mh.changeCategory("Modelling")
        self.redraw()

    def doSave(self):
        if self.currentFile.path:
            from guisave import saveMHM
            self.currentTask.hide()
            saveMHM(self.currentFile.path)
            self.currentTask.show()
            self.redraw()
        else:
            self.goToSave()

    def goToSave(self):
        mh.changeTask("Files", "Save")
        self.redraw()

    def goToLoad(self):
        mh.changeTask("Files", "Load")
        self.redraw()

    def goToExport(self):
        mh.changeTask("Files", "Export")
        self.redraw()

    def goToRendering(self):
        mh.changeCategory("Rendering")
        self.redraw()

    def goToHelp(self):
        mh.changeCategory("Help")

    def toggleSolid(self):
        self.selectedHuman.setSolid(not self.actions.wireframe.isChecked())
        self.redraw()

    def toggleSubdivision(self):
        self.selectedHuman.setSubdivided(self.actions.smooth.isChecked(), True)
        self.redraw()

    def togglePose(self):
        self.selectedHuman.setPosed(self.actions.pose.isChecked())
        self.redraw()

    def toggleGrid(self):
        if self.backplaneGrid and self.groundplaneGrid:
            self.backplaneGrid.setVisibility( self.actions.grid.isChecked() )
            self.groundplaneGrid.setVisibility( self.actions.grid.isChecked() )
            self.redraw()

    def symmetryRight(self):
        human = self.selectedHuman
        self.do( SymmetryAction(human, 'r') )

    def symmetryLeft(self):
        human = self.selectedHuman
        self.do( SymmetryAction(human, 'l') )

    def symmetry(self):
        human = self.selectedHuman
        human.symmetryModeEnabled = self.actions.symmetry.isChecked()

    def grabScreen(self):
        import datetime
        grabPath = mh.getPath('grab')
        if not os.path.exists(grabPath):
            os.makedirs(grabPath)
        grabName = datetime.datetime.now().strftime('grab_%Y-%m-%d_%H.%M.%S.png')
        filename = os.path.join(grabPath, grabName)
        mh.grabScreen(0, 0, G.windowWidth, G.windowHeight, filename)
        self.status("Screengrab saved to %s", filename)

    def resetHuman(self):
        if self.currentFile.modified:
            self.prompt('Reset', 'By resetting the human you will lose all your changes, are you sure?', 'Yes', 'No', self._resetHuman)
        else:
            self._resetHuman()

    def _resetHuman(self):
        self.selectedHuman.resetMeshValues()
        self.selectedHuman.applyAllTargets()
        self.clearUndoRedo()
        # Reset mesh is never forced to wireframe
        self.actions.wireframe.setChecked(False)

    # Camera navigation
    def rotateCamera(self, axis, amount):
        self.modelCamera.addRotation(axis, amount)
        if axis == 1 and self.modelCamera.getRotation()[1] in [0, 90, 180, 270]:
            # Make sure that while rotating the grid never appears
            self.modelCamera.addRotation(1, 0.001)
        self.redraw()

    def panCamera(self, axis, amount):
        self.modelCamera.addTranslation(axis, amount)
        self.redraw()

    def cameraSpeed(self):
        if mh.getKeyModifiers() & mh.Modifiers.SHIFT:
            return self.getSetting('highspeed')
        else:
            return self.getSetting('lowspeed')

    def zoomCamera(self, amount):
        self.modelCamera.addZoom(amount * self.cameraSpeed())
        self.redraw()

    def rotateAction(self, axis):
        return animation3d.RotateAction(self.modelCamera, self.modelCamera.getRotation(), axis)

    def axisView(self, axis):
        tmp = self.modelCamera.limitInclination
        self.modelCamera.limitInclination = False
        animation3d.animate(self, 0.20, [self.rotateAction(axis)])
        self.modelCamera.limitInclination = tmp

    def rotateDown(self):
        self.rotateCamera(0, 5.0)

    def rotateUp(self):
        self.rotateCamera(0, -5.0)

    def rotateLeft(self):
        self.rotateCamera(1, -5.0)

    def rotateRight(self):
        self.rotateCamera(1, 5.0)

    def panUp(self):
        self.panCamera(1, 0.05)

    def panDown(self):
        self.panCamera(1, -0.05)

    def panRight(self):
        self.panCamera(0, 0.05)

    def panLeft(self):
        self.panCamera(0, -0.05)

    def zoomOut(self):
        self.zoomCamera(0.65)

    def zoomIn(self):
        self.zoomCamera(-0.65)

    def frontView(self):
        self.axisView([0.0, 0.0, 0.0])

    def rightView(self):
        self.axisView([0.0, 90.0, 0.0])

    def topView(self):
        self.axisView([90.0, 0.0, 0.0])

    def backView(self):
        self.axisView([0.0, 180.0, 0.0])

    def leftView(self):
        self.axisView([0.0, -90.0, 0.0])

    def bottomView(self):
        self.axisView([-90.0, 0.0, 0.0])

    def resetView(self):
        cam = self.modelCamera
        animation3d.animate(self, 0.20, [
            self.rotateAction([0.0, 0.0, 0.0]),
            animation3d.PathAction(self.modelCamera, [self.modelCamera.getPosition(), [0.0, 0.0, 0.0]]),
            animation3d.ZoomAction(self.modelCamera, self.modelCamera.zoomFactor, 1.0) ])

    # Mouse actions
    def mouseTranslate(self, event):

        speed = self.cameraSpeed()
        self.modelCamera.addXYTranslation(event.dx * speed, event.dy * speed)

    def mouseRotate(self, event):

        speed = self.cameraSpeed()

        rotX = 0.5 * event.dy * speed
        rotY = 0.5 * event.dx * speed
        self.modelCamera.addRotation(0, rotX)
        self.modelCamera.addRotation(1, rotY)

    def mouseZoom(self, event):

        speed = self.cameraSpeed()

        if self.getSetting('invertMouseWheel'):
            speed *= -1

        self.modelCamera.addZoom( -0.05 * event.dy * speed )

    def mouseFocus(self, ev):
        pass

    def promptAndExit(self):
        if self.currentFile.modified:
            self.prompt('Exit', 'You have unsaved changes. Are you sure you want to exit the application?', 'Yes', 'No', self.stop)
        else:
            self.stop()

    def toggleProfiling(self):
        import profiler
        if self.actions.profiling.isChecked():
            profiler.start()
            log.notice('profiling started')
        else:
            profiler.stop()
            log.notice('profiling stopped')
            mh.changeTask('Utilities', 'Profile')

    def createActions(self):
        """
        Creates the actions toolbar with icon buttons.
        """
        self.actions = gui.Actions()

        def action(*args, **kwargs):
            action = gui.Action(*args, **kwargs)
            self.mainwin.addAction(action)
            if toolbar is not None:
                toolbar.addAction(action)
            return action


        # Global actions (eg. keyboard shortcuts)
        toolbar = None

        self.actions.rendering = action('rendering', self.getLanguageString('Rendering'),     self.goToRendering)
        self.actions.modelling = action('modelling', self.getLanguageString('Modelling'),     self.goToModelling)
        self.actions.exit      = action('exit'     , self.getLanguageString('Exit'),          self.promptAndExit)

        self.actions.rotateU   = action('rotateU',   self.getLanguageString('Rotate Up'),     self.rotateUp)
        self.actions.rotateD   = action('rotateD',   self.getLanguageString('Rotate Down'),   self.rotateDown)
        self.actions.rotateR   = action('rotateR',   self.getLanguageString('Rotate Right'),  self.rotateRight)
        self.actions.rotateL   = action('rotateL',   self.getLanguageString('Rotate Left'),   self.rotateLeft)
        self.actions.panU      = action('panU',      self.getLanguageString('Pan Up'),        self.panUp)
        self.actions.panD      = action('panD',      self.getLanguageString('Pan Down'),      self.panDown)
        self.actions.panR      = action('panR',      self.getLanguageString('Pan Right'),     self.panRight)
        self.actions.panL      = action('panL',      self.getLanguageString('Pan Left'),      self.panLeft)
        self.actions.zoomIn    = action('zoomIn',    self.getLanguageString('Zoom In'),       self.zoomIn)
        self.actions.zoomOut   = action('zoomOut',   self.getLanguageString('Zoom Out'),      self.zoomOut)

        self.actions.profiling = action('profiling', self.getLanguageString('Profiling'),     self.toggleProfiling, toggle=True)

        # 1 - File toolbar
        toolbar = self.file_toolbar = mh.addToolBar("File")

        self.actions.load      = action('load',      self.getLanguageString('Load'),          self.goToLoad)
        self.actions.save      = action('save',      self.getLanguageString('Save'),          self.doSave)
        self.actions.export    = action('export',    self.getLanguageString('Export'),        self.goToExport)


        # 2 - Edit toolbar
        toolbar = self.edit_toolbar = mh.addToolBar("Edit")

        self.actions.undo      = action('undo',      self.getLanguageString('Undo'),          self.undo)
        self.actions.redo      = action('redo',      self.getLanguageString('Redo'),          self.redo)
        self.actions.reset     = action('reset',     self.getLanguageString('Reset'),         self.resetHuman)


        # 3 - View toolbar
        toolbar = self.view_toolbar = mh.addToolBar("View")

        self.actions.smooth    = action('smooth',    self.getLanguageString('Smooth'),        self.toggleSubdivision, toggle=True)
        self.actions.wireframe = action('wireframe', self.getLanguageString('Wireframe'),     self.toggleSolid, toggle=True)
        self.actions.pose      = action('pose', self.getLanguageString('Pose'),               self.togglePose,  toggle=True)
        self.actions.grid      = action('grid', self.getLanguageString('Grid'),               self.toggleGrid,  toggle=True)


        # 4 - Symmetry toolbar
        toolbar = self.sym_toolbar = mh.addToolBar("Symmetry")

        self.actions.symmetryR = action('symm1', self.getLanguageString('Symmetry R>L'),     self.symmetryLeft)
        self.actions.symmetryL = action('symm2', self.getLanguageString('Symmetry L>R'),     self.symmetryRight)
        self.actions.symmetry  = action('symm',  self.getLanguageString('Symmetry'),         self.symmetry, toggle=True)


        # 5 - Camera toolbar
        toolbar = self.camera_toolbar = mh.addToolBar("Camera")

        self.actions.front     = action('front',     self.getLanguageString('Front view'),    self.frontView)
        self.actions.back      = action('back',      self.getLanguageString('Back view'),     self.backView)
        self.actions.right     = action('right',     self.getLanguageString('Right view'),    self.rightView)
        self.actions.left      = action('left',      self.getLanguageString('Left view'),     self.leftView)
        self.actions.top       = action('top',       self.getLanguageString('Top view'),      self.topView)
        self.actions.bottom    = action('bottom',    self.getLanguageString('Bottom view'),   self.bottomView)
        self.actions.resetCam  = action('resetCam',  self.getLanguageString('Reset camera'),  self.resetView)


        # 6 - Other toolbar
        toolbar = self.other_toolbar = mh.addToolBar("Other")

        self.actions.grab      = action('grab',      self.getLanguageString('Grab screen'),   self.grabScreen)
        self.actions.help      = action('help',      self.getLanguageString('Help'),          self.goToHelp)


    def createShortcuts(self):
        for action, (modifier, key) in self.shortcuts.items():
            action = getattr(self.actions, action, None)
            if action is not None:
                mh.setShortcut(modifier, key, action)

    def OnInit(self):
        mh.Application.OnInit(self)

        #[BAL 07/14/2013] work around focus bug in PyQt on OS X
        if sys.platform.startswith('darwin'):
            G.app.mainwin.raise_()

        self.setLanguage("english")

        self.loadSettings()

        # Necessary because otherwise setting back to default theme causes crash
        log.message("Initializing default theme first.")
        self.setTheme("default")
        log.debug("Using Qt system style %s", self.getLookAndFeel())

        self.createActions()
        self.syncUndoRedo()

        self.createShortcuts()

        self.splash = gui.SplashScreen(self.getThemeResource('images', 'splash.png'), mh.getVersionDigitsStr())
        self.splash.show()
        if not sys.platform.startswith('darwin'):
            self.mainwin.hide()  # Fix for OSX crash thanks to Francois (issue #593)

        self.tabs = self.mainwin.tabs

        @self.tabs.mhEvent
        def onTabSelected(tab):
            self.switchCategory(tab.name)

    def run(self):
        self.start()

    def addExporter(self, exporter):
        self.getCategory('Files').getTaskByName('Export').addExporter(exporter)
